The Science of The Total Environment,
Год журнала:
2023,
Номер
898, С. 165446 - 165446
Опубликована: Июль 17, 2023
Due
to
their
size,
flexibility,
biocompatibility,
large
surface
area,
and
variable
functionality
nanoparticles
have
enormous
industrial,
agricultural,
pharmaceutical
biotechnological
applications.
This
has
led
widespread
use
in
various
fields.
The
advancement
of
knowledge
this
field
research
altered
our
way
life
from
medicine
agriculture.
One
the
rungs
revolution,
which
somewhat
reduced
harmful
consequences,
is
nanotechnology.
A
helpful
ingredient
for
plants,
silicon
(Si),
well-known
its
preventive
properties
under
adverse
environmental
conditions.
Several
studies
shown
how
biogenic
silica
helps
plants
recover
biotic
abiotic
stressors.
majority
demonstrated
benefits
silicon-based
(Si-NPs)
plant
growth
development,
particularly
stressful
environments.
In
order
minimize
release
brine,
heavy
metals,
radioactive
chemicals
into
water,
remove
non-metals,
components,
purify
also
been
used
remediation.
Potentially
toxic
elements
(PTEs)
become
a
huge
threat
food
security
through
negative
impact
on
agroecosystem.
Si-NPs
potentials
PTEs
agroecosystem
promote
via
promotion
development.
review,
we
outlined
sources
ecotoxicological
consequences
agroecosystems.
mitigating
were
extensively
discussed
other
applications
agriculture
foster
highlighted.
Plants,
Год журнала:
2021,
Номер
10(12), С. 2727 - 2727
Опубликована: Дек. 11, 2021
Nanotechnology
has
gained
popularity
in
recent
years
owing
to
its
established
potential
for
application
and
implementation
various
sectors
such
as
medical
drugs,
medicine,
catalysis,
energy,
material,
plant
science.
Nanoparticles
(NPs)
are
smaller
size
(1–100
nm)
with
a
larger
surface
area
have
many
fruitful
applications.
The
extraordinary
functions
of
NPs
utilized
sustainable
agriculture
due
nano-enabled
products,
e.g.,
nano-insecticides,
nano-pesticides,
nano-fertilizers.
lately
been
suggested
an
alternate
method
controlling
pests
insects,
fungi,
weeds.
Several
exhibit
antimicrobial
properties
considered
food
packaging
processes;
example,
Ag-NPs
commonly
used
purposes.
Apart
from
their
properties,
Si,
Ag,
Fe,
Cu,
Al,
Zn,
ZnO,
TiO2,
CeO2,
Al2O3,
carbon
nanotubes
also
demonstrated
negative
impacts
on
growth
development.
This
review
examines
the
field-use
products
agriculture,
future
perspectives,
growing
environmental
concerns.
remarkable
information
commercialized
allied
provided.
Nano-Micro Letters,
Год журнала:
2023,
Номер
15(1)
Опубликована: Фев. 16, 2023
Abstract
Agro
seeds
are
vulnerable
to
environmental
stressors,
adversely
affecting
seed
vigor,
crop
growth,
and
productivity.
Different
agrochemical-based
treatments
enhance
germination,
but
they
can
also
cause
damage
the
environment;
therefore,
sustainable
technologies
such
as
nano-based
agrochemicals
urgently
needed.
Nanoagrochemicals
reduce
dose-dependent
toxicity
of
treatment,
thereby
improving
viability
ensuring
controlled
release
nanoagrochemical
active
ingredients
However,
applications
nanoagrochemicals
plants
in
field
raise
concerns
about
nanomaterial
safety,
exposure
levels,
toxicological
implications
environment
human
health.
In
present
comprehensive
review,
development,
scope,
challenges,
risk
assessments
on
treatment
discussed.
Moreover,
implementation
obstacles
for
use
treatments,
their
commercialization
potential,
need
policy
regulations
assess
possible
risks
Based
our
knowledge,
this
is
first
time
that
we
have
presented
legendary
literature
readers
order
help
them
gain
a
deeper
understanding
upcoming
nanotechnologies
may
enable
development
future
generation
agrochemical
formulations,
potential
associated
with
treatment.
Journal of Industrial and Engineering Chemistry,
Год журнала:
2023,
Номер
129, С. 105 - 123
Опубликована: Авг. 29, 2023
In
the
context
of
agricultural
sustainability
and
necessity
for
food
security,
using
nano
pesticides
as
an
innovative
technology
represents
alternative
with
good
potential
to
overcome
drawbacks
classical
pesticides.
This
work
provides
a
general
overview
main
aspects
in
area
nano-pesticides
focus
on
Metal-Organic
Frameworks
(MOFs).
Although
its
early
infancy,
research
performed
so
far
indicated
that
compared
pesticides,
MOF-based
show
improved
performance,
controlled
sustained
active
ingredient
release
targeted
delivery.
Moreover,
flexibility
design
capability
modification
hybridization
indicate
MOFs
promising
candidates
further
improvements.
Nevertheless,
since
long-term
toxic
effects
are
not
yet
fully
understood,
additional
studies
focusing
impact
individual
components
overall
nano-system
required
determine
if
envisioned
can
be
reached.
Sustainability,
Год журнала:
2022,
Номер
14(7), С. 4056 - 4056
Опубликована: Март 29, 2022
Systemic
fungicide
use
has
increased
over
the
last
decades,
despite
susceptibility
of
resistance
development
and
side
effects
to
human
health
environment.
Although
herbicides
insecticides
are
detected
more
frequently
in
environmental
samples,
there
many
fungicides
that
have
ability
enter
water
bodies
due
their
physicochemical
properties
increasing
use.
Key
factors
affecting
fate
environment
been
discussed,
including
non-target
fungicides.
For
instance,
associated
with
steep
decline
bumblebee
populations.
Secondary
actions
certain
on
plants
also
reported
recently.
In
addition,
alternative
eco-friendly
disease
management
approaches
described.
Constructed
Wetlands
(CWs)
comprise
an
environmentally
friendly,
low
cost,
efficient
remediation
technique.
Fungicide
removal
within
CWs
is
dependent
plant
uptake
metabolism,
absorption
porous
media
soil,
hydrolysis,
photodegradation,
biodegradation.
Factors
related
efficacy
fungicides,
such
as
type
CW,
species,
parameters
discussed
this
paper.
There
low-environmental-risk
phytohormones
other
compounds,
which
could
improve
performance
CW
vegetation.
specific
multiple
modes
action
substrate
microbial
communities
endophytes,
physiological
response
were
studied.
Prospects
challenges
for
future
research
suggested
under
prism
reducing
risk
enhancing
performance.
Environmental Pollution,
Год журнала:
2023,
Номер
334, С. 122222 - 122222
Опубликована: Июль 21, 2023
Agricultural
nanotechnology
has
become
a
powerful
tool
to
help
crops
and
improve
agricultural
production
in
the
context
of
growing
world
population.
However,
its
application
can
have
some
problems
with
development
harvests,
especially
during
germination.
This
review
evaluates
nanoparticles
essential
(Cu,
Fe,
Ni
Zn)
non-essential
(Ag
Ti)
elements
on
plant
In
general,
effect
depends
several
factors
(dose,
treatment
time,
method,
type
nanoparticle
plant).
addition,
pH
ionic
strength
are
relevant
when
applying
soil.
case
element
nanoparticles,
Fe
show
better
results
improving
nutrient
uptake,
germination,
possibility
magnetic
properties
could
favor
their
use
removal
pollutants.
Cu
Zn
they
be
beneficial
at
low
concentrations,
while
excess
presents
toxicity
negatively
affects
About
elements,
both
Ti
Ag
helpful
for
uptake.
potential
effects
depend
highly
crop
type,
particle
size
concentration.
Overall,
agriculture
is
still
early
stages
development,
more
research
needed
understand
environmental
public
health
impacts.
Nanomaterials,
Год журнала:
2023,
Номер
13(13), С. 1978 - 1978
Опубликована: Июнь 29, 2023
The
excessive
application
of
pesticides
and
fertilizers
has
generated
losses
in
biological
diversity,
environmental
pollution,
harmful
effects
on
human
health.
Under
this
context,
nanotechnology
constitutes
an
innovative
tool
to
alleviate
these
problems.
Notably,
applying
nanocarriers
as
controlled
release
systems
(CRSs)
for
agrochemicals
can
overcome
the
limitations
conventional
products.
A
CRS
is
eco-friendly
strategy
ecosystem
Nanopesticides
based
synthetic
natural
polymers,
nanoemulsions,
lipid
nanoparticles,
nanofibers
reduce
phytopathogens
plant
diseases.
Nanoproducts
designed
with
environmentally
responsive,
offer
great
potential
create
formulations
that
respond
specific
stimuli.
formulation
nanofertilizers
focused
enhancing
action
nutrients
growth
stimulators,
which
show
improved
nutrient
site-specific
using
nanohydroxyapatite,
nanoclays,
chitosan
mesoporous
silica
amorphous
calcium
phosphate.
However,
despite
noticeable
results
nanopesticides
nanofertilizers,
research
still
needs
be
improved.
Here,
we
review
relevant
antecedents
topic
discuss
future
challenges.
